PT  - JOURNAL ARTICLE
AU  - K Ayasoufi
AU  - DM Wolf
AU  - SL Namen
AU  - ZP Tritz
AU  - F Jin
AU  - CK Pfaller
AU  - EN Goddery
AU  - CE Fain
AU  - LR Gulbicki
AU  - RH Khadka
AU  - LT Yokanovich
AU  - MJ Hansen
AU  - AJ Johnson
TI  - Brain resident memory T cells rapidly expand and initiate neuroinflammatory responses following CNS injury and viral infection
AID  - 10.1101/2022.04.08.487707
DP  - 2022 Jan 01
TA  - bioRxiv
PG  - 2022.04.08.487707
4099  - http://biorxiv.org/content/early/2022/04/10/2022.04.08.487707.short
4100  - http://biorxiv.org/content/early/2022/04/10/2022.04.08.487707.full
AB  - The contribution of circulating verses tissue resident memory T cells (TRM) to clinical neuropathology is an enduring question due to a lack of mechanistic insights. The prevailing view is TRM cells are protective against pathogens in the brain. However, the extent antigen-specific TRM cells can induce neuropathology upon reactivation has not been determined. Using the described phenotype of TRMs, we found that brains of naïve mice harbor populations of CD69+ CD103− T cells. Notably, numbers of CD69+ CD103− TRM cells rapidly increase following neurological insults of physical, cancerous, or viral origins. This TRM expansion precedes infiltration of virus specific CD8 T cells and is due to proliferation of T cells within the brain. In contrast, the CD69+ CD103+ TRMs in the brain are generated after the initial expansion of CD69+ CD103− cells following injury and are antigen-specific. We next evaluated the capacity of antigen-specific TRMs in the brain to induce significant neuroinflammation post virus clearance, including infiltration of inflammatory monocytes, activation of T cells in the brain, and significant blood brain barrier disruption. These neuroinflammatory events were induced by TRMs, as depletion of peripheral T cells or blocking T cell trafficking using FTY720 did not change the neuroinflammatory course. Reactivation of antigen-specific TRMs in the brain also induced profound lymphopenia within the blood compartment. We have therefore determined that antigen-specific TRMs can induce significant neuroinflammation, neuropathology, and peripheral immune suppression. Importantly, understanding functions of brain TRMs is crucial in investigating their role in neurodegenerative disorders, CNS cancers, and long-term complications associated with viral infections including COVID-19.Graphical Abstract Healthy brain harbors populations of resident memory T cells (TRM). These TRM cells rapidly proliferate in response to CNS insults of various origins. Following clearance of the insult, populations of TRM cells in the brain decline, but an antigen-specific TRM subset remains within the brain. Antigen-specific reactivation of brain TRMs mediates neuroinflammatory sequalae involving activation and blasting of resident T cells, infiltration of inflammatory monocytes and blood brain barrier disruption. Severe neuroinflammation within the brain following antigen-specific TRM reactivation is concurrent with profound lymphopenia within the blood compartment. Competing Interest StatementThe authors have declared no competing interest.